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Section 8.1 Confidence Intervals: The Basics

Section 8.1 Confidence Intervals: The Basics. Section 8.1 Confidence Intervals: The Basics. After this section, you should be able to… INTERPRET a confidence level INTERPRET a confidence interval in context

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Section 8.1 Confidence Intervals: The Basics

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  1. Section 8.1 Confidence Intervals: The Basics

  2. Section 8.1Confidence Intervals: The Basics After this section, you should be able to… • INTERPRET a confidence level • INTERPRET a confidence interval in context • DESCRIBE how a confidence interval gives a range of plausible values for the parameter • DESCRIBE the inference conditions necessary to construct confidence intervals • EXPLAIN practical issues that can affect the interpretation of a confidence interval

  3. In this chapter, we’ll learn one method of statistical inference – confidence intervals – so we may estimate the value of a parameter from a sample statistic. As we do so, we’ll learn not only how to construct a confidence interval, but also how to report probabilities that would describe what would happen if we used the inference method many times. In Chapter 7 we assumed we knew the population parameter; however, in many real life situations, it is impossible to know the population parameter. Can we really weigh all the uncooked burgers in the US? Can we really measure the weights of all US citizens?

  4. Confidence Intervals: The Basics A point estimator is a statistic that provides an estimate of a population parameter. The value of that statistic from a sample is called a point estimate. Ideally, a point estimate is our “best guess” at the value of an unknown parameter. The point estimator can be a potential mean, standard deviation, etc.

  5. (a) The golf ball manufacturer would also like to investigate the variability of the distance travelled by the golf balls by estimating the interquartile range. (b) The math department wants to know what proportion of its students own a graphing calculator, so they take a random sample of 100 students and find that 28 own a graphing calculator. Identify the Point Estimators

  6. Use the sample IQR as a point estimator for the true IQR. (b) Use the sample proportion p-hat as a point estimator for the true proportion p. The sample proportion is p-hat = 0.28. Identify the Point Estimators

  7. The Idea of a Confidence Interval Based on our SRS we find the mean to be 240.79.Is the value of the population mean µ exactly 240.79? Probably not. However, since the sample mean is 240.79, we could guess that µ is “somewhere” around 240.79. How close to 240.79 is µ likely to be? If we estimate that µ lies somewhere in the interval 230.79 to 250.79, we’d be calculating an interval using a method that captures the true µ in about 95% of all possible samples of this size.

  8. Confidence Intervals: The Basics How would you describe the shape of this distribution?

  9. The Idea of a Confidence Interval

  10. Using Confidence Intervals Before calculating a confidence interval for µ or p there are three important conditions that you should check. 1) Random: The data should come from a well-designed random sample or randomized experiment. • 2) Normal: The sampling distribution of the statistic is approximately Normal. • For means: The sampling distribution is exactly Normal if the population distribution is Normal. When the population distribution is not Normal, then the central limit theorem tells us the sampling distribution will be approximately Normal if n is sufficiently large (n ≥ 30). • For proportions: We can use the Normal approximation to the sampling distribution as long as np ≥ 10 and n(1 – p) ≥ 10. 3) Independent: Individual observations are independent. When sampling without replacement, the sample size n should be no more than 10% of the population size N (the 10% condition) to use our formula for the standard deviation of the statistic.

  11. Calculating a Confidence Interval Formula: Note: Z-score * standard dev. of p.e. is called Margin of Error If the Normal condition is met, we can use a Normal curve. For example: Z-score is 1.96 for a 95% confidence level.

  12. Finding a Critical Value Use Table A to find the critical value z* for an 80% confidence interval. Assume that the Normal condition is met. Since we want to capture the central 80% of the standard Normal distribution, we leave out 20%, or 10% in each tail. Search Table A to find the point z* with area 0.1 to its left. The closest entry is z = – 1.28. So, the critical value z* for an 80% confidence interval is z* = 1.28.

  13. Common Confidence Intervals & z-scores We usually choose a confidence level of 90% or higher because we want to be quite sure of our conclusions. The most common confidence level is 95%.

  14. Calculate the Confidence Interval

  15. Interpret: “We are 95% confident that the interval from ______ to _______ captures the actual value of the (insert population parameter details…)” Interpreting Confidence Intervals

  16. Interpreting Confidence Levels The confidence level tells us how likely it is that the method we are using will produce an interval that captures the population parameter if we use it many times. For Example: “In 95% of all possible samples of the same size, the resulting confidence interval would capture (insert details in context).” The confidence level does NOT tell us the chance that a particular confidence interval captures the population parameter. NO: There is a 95% chance that the mean is between….

  17. According to www.gallup.com, on August 13, 2010, the 95% confidence interval for the true proportion of Americans who approved of the job Barack Obama was doing as president was 0.44 +/- 0.03. Interpret the confidence interval and level. Interpret the Following…

  18. Interval: We are 95% confident that the interval from 0.41 to 0.47 captures the true proportion of Americans who approve of the job Barack Obama was doing as president at the time of the poll. Level: In 95% of all possible samples of the same size, the resulting confidence interval would capture the true proportion of Americans who approve of the job Barack Obama was doing as president. Interpret the Following…

  19. Properties of Confidence Intervals: • The “margin of error” is the (critical value) • (standard deviation of statistic) • The user chooses the confidence level, and the margin of error follows from this choice. • The margin of error gets smaller when: • The confidence level decreases • The sample size n increases • The critical value depends on the confidence level and the sampling distribution of the statistic. • Greater confidence requires a larger critical value • The standard deviation of the statistic depends on the sample size n

  20. Interpret a confidence interval and confidence level in context. • Identify point estimators. • Check conditions for conduction confidence interval calculations. • Understand how changes in sample size and confidence interval level will change the resulting interval. • Calculate and interpret in context a confidence interval. For Your Quiz…

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